Published on Feb 21, 2020
Brain chips are made with a view to enhance the memory of human beings, to help paralyzed patients, and are also intended to serve military purposes. It is likely that implantable computer chips acting as sensors, or actuators, may soon assist not only failing memory, but even bestow fluency in a new language, or enable "recognition" of previously unmet individuals.
The progress already made in therapeutic devices, in prosthetics and in computer science indicates that it may well be feasible to develop direct interfaces between the brain and computers. This technology is only under developmental phase, although many implants have already been made on the human brain for experimental purposes
The future may well involve the reality of science fiction's cyborg, persons who have developed some intimate and occasionally necessary relationship with a machine. It is likely that implantable computer chips acting as sensors, or actuators, may soon assist not only failing memory, but even bestow fluency in a new language, or enable "recognition" of previously unmet individuals. The progress already made in therapeutic devices, in prosthetics and in computer science indicates that it may well be feasible to develop direct interfaces between the brain and computers.
Computer scientists predict that within the next twenty years neural interfaces will be designed that will not only increase the dynamic range of senses, but will also enhance memory and enable "cyberthink" - invisible communication with others. This technology will facilitate consistent and constant access to information when and where it is needed.
The linkage of smaller, lighter, and more powerful computer systems with radio technologies will enable users to access information and communicate anywhere or anytime. Through miniaturization of components, systems have been generated that are wearable and nearly invisible, so that individuals, supported by a personal information structure, can move about and interact freely, as well as, through networking, share experiences with others. The wearable computer project envisions users accessing the Remembrance Agent of a large communally based data source.
As intelligence or sensory "amplifiers", the implantable chip will generate at least four benefits:
• It will increase the dynamic range of senses, enabling, for example, seeing IR, UV, and chemical spectra;
• It will enhance memory;
• It will enable "cyberthink" - invisible communication with others when making decisions, and
• It will enable consistent and constant access to information where and when it is needed.
For many these enhancements will produce major improvements in the quality of life, or their survivability, or their performance in a job. The first prototype devices for these improvements in human functioning should be available in five years, with the military prototypes starting within ten years, and information workers using prototypes within fifteen years; general adoption will take roughly twenty to thirty years. The brain chip will probably function as a prosthetic cortical implant. The user's visual cortex will receive stimulation from a computer based either on what a camera sees or based on an artificial "window" interface
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